Tag Archives: 2014 World Cup

It seems there a steady downward trajectory where Canadian science and technology spending is concerned. Stephen Hui in a May 28, 2014 article for the Georgia Straight, breaks the latest news from Statistics Canada (Note: A link has been removed),

The Canadian government is expected to spend less money on science and technology in 2014-15 compared to the previous fiscal year, continuing a trend that began in 2011-12. [emphasis mine]

According to Statistics Canada, federal departments and agencies are projected to record $10.3 billion (all figures in current dollars) in science and tech expenditures in 2014-15, a decrease of 5.4 percent from 2013-14.

Federal science and tech spending peaked at $12 billion in 2010-11 and has declined every year since then.

Interestingly, the OECD (Organization for Economic Cooperation and Development) Science, Technology and Industry Scoreboard 2013 dates the decline to 2001. From my Oct. 30, 2013 posting (excerpted from the scorecard),

Canada is among the few OECD countries where R&D expenditure declined between 2000 and 2011 (Figure 1). This decline was mainly due to reduced business spending on R&D. It occurred despite relatively generous public support for business R&D, primarily through tax incentives. In 2011, Canada was amongst the OECD countries with the most generous tax support for R&D and the country with the largest share of government funding for business R&D being accounted for by tax credits (Figure 2). …

If I understand this rightly, Canadian business spending on R&D has been steadily declining for more than a decade and, since 2010 or so, Canadian government spending is also steadily declining. Does anyone else see this as a problem?

As Brazil gets set to host the 2014 FIFA World Cup this month amid concerns about the amount of public money being used to stage the world’s largest sporting event, Physics World‘s editorial team reveals in a new special report how physicists are taking full advantage of the four-fold increase in science funding that the government has invested over the past 10 years.

Since this news comes from the physics community, the news release focuses on physics-related developments,

Negotiations are currently under way to make Brazil an associate member of the CERN particle-physics lab in Geneva, while the country is also taking a leading role in the Pierre Auger Observatory – an international project based in Argentina designed to study ultrahigh-energy cosmic rays. [emphasis mine]

Building is also under way to create a world-leading synchrotron source, Sirius and Brazil is poised to become the first non-European member of the European Southern Observatory.

Carlos Henrique de Brito Cruz, a physicist at the University of Campinas and scientific director at FAPESP – one of Brazil’s most important funding agencies – told Physics World that the expectation is for Brazilian scientists to take a leadership role in such large research projects “and not just watch as mere participants”.

Considering the first graduate programmes in physics did not emerge in Brazilian universities until 1960, the rise to becoming one of the leading participants in international collaborations has been a rapid one.

The reputation of Brazilian physics has grown in line with a massive increase in science funding, which rose from R$12bn (about £3bn) in 2000 to R$50bn (around £13bn) in 2011.

Brazil’s spending on R&D now accounts for 1.2% of the gross domestic product and 40% of the total funding comes from companies.

The Brazilian Physical Society has around 6000 members comprising almost all research physicists in the country, who wrote around 25 000 research articles in international science journals between 2007 and 2010.

A lack of funding in the past had forced Brazilian scientists to focus on cheaper, theoretical research, but this has now changed and there is an almost even split between theory and experiment at universities.

Yet Brazil still suffers from several long-standing problems, the most significant being the poor standard of science education in high schools. A combination of low pay and lack of recognition makes physics teaching an unpopular choice of occupation despite attempts to tackle the problem.

Even those students who do see physics as a career option end up struggling and under-prepared for the rigours of an undergraduate physics course. Vitor de Souza, an astrophysicist at the Physics Institute at São Carlos, which is part of the University of São Paulo, told Physics World that of the 120 students who start a four-year physics degree at his university, only 10-20 actually graduate.

Another problem in Brazil is a fundamental disconnect between academic research and industrial development, with universities not sure how to handle spin-off firms and companies suspicious of universities.

More broadly, physicists feel that Brazilian society does not recognize the value of science, and that this can only be overcome when the physics community becomes more ambitious and more audacious.

As I noted in this May 30, 2014 posting (and elsewhere) featuring the new Agency of Science Communication, Technology and Innovation of Argentina (ACCTINA),,

The PCST [13th International Public Communication of Science and Technology Conference] international conference takes place every two years. The 2014 PCST conference took place in Salvador, Brazil. Conferences like this would seem to confirm the comments I made in a May 20, 2014 posting,

Returning to 2014, the [World Cup {soccer}] kickoff in Brazil (if successful) symbolizes more than an international athletic competition or a technical/medical achievement, this kick-off symbolizes a technological future for Brazil and its place on the world stage (despite the protests and social unrest) .

While the science and technology community in Brazil has its concerns, I imagine most Canadian scientists would thrill to being the recipients of the funding bonanza of 1.2% of the gross domestic product. According to the Conference Board of Canada, research and development spending in Canada was 0.8% of GDP for 2011 (from the Conference Board of Canada’s Public R&D spending webpage),

[downloaded from http://www.conferenceboard.ca/hcp/details/innovation/publicrandd.aspx]

Did you notice, Canada the in 2011 was on the edge of getting a C grade along with the US? Meanwhile, if Brazil was listed, it would get top marks.

The question as to how much money is not enough for research and development (R&D) spending is complex and I don’t think it’s easily answered but it would be nice to see some discussion.

The Brain research, ethics, and nanotechnology (part one of five) May 19, 2014 post kicked off a series titled ‘Brains, prostheses, nanotechnology, and human enhancement’ which brings together a number of developments in the worlds of neuroscience, prosthetics, and, incidentally, nanotechnology in the field of interest called human enhancement. Parts one through four are an attempt to draw together a number of new developments, mostly in the US and in Europe. Due to my language skills which extend to English and, more tenuously, French, I can’t provide a more ‘global perspective’. Part five features a summary.

Brazil’s World Cup for soccer/football which opens on June 12, 2014 will be the first public viewing of someone with paraplegia demonstrating a mind-controlled exoskeleton (or a robotic suit as it’s sometimes called) by opening the 2014 games with the first kick-off.

I’ve been covering this story since 2011 and, even so, was late to the party as per this May 7, 2014 article by Alejandra Martins for BBC World news online,

The World Cup curtain-raiser will see the first public demonstration of a mind-controlled exoskeleton that will enable a person with paralysis to walk.

If all goes as planned, the robotic suit will spring to life in front of almost 70,000 spectators and a global audience of billions of people.

The exoskeleton was developed by an international team of scientists as part of the Walk Again Project and is the culmination of more than a decade of work for Dr Miguel Nicolelis, a Brazilian neuroscientist based at Duke University in North Carolina. [emphasis mine]

…

Since November [2013], Dr Nicolelis has been training eight patients at a lab in Sao Paulo, in the midst of huge media speculation that one of them will stand up from his or her wheelchair and deliver the first kick of this year’s World Cup.

“That was the original plan,” the Duke University researcher told the BBC. “But not even I could tell you the specifics of how the demonstration will take place. This is being discussed at the moment.”

Speaking in Portuguese from Sao Paulo, Miguel Nicolelis explained that all the patients are over 20 years of age, with the oldest about 35.

“We started the training in a virtual environment with a simulator. In the last few days, four patients have donned the exoskeleton to take their first steps and one of them has used mental control to kick a ball,” he explained.

On the heels of research which suggests that humans tend to view their prostheses, including wheel chairs, as part of their bodies, researchers in Europe have announced the development of a working exoskeleton powered by the wearer’s thoughts.

Getting back to Brazil and Nicolelis’ technology, Ian Sample offers an excellent description in an April 1, 2014 article for the Guardian (Note: Links have been removed),

The technology in question is a mind-controlled robotic exoskeleton. The complex and conspicuous robotic suit, built from lightweight alloys and powered by hydraulics, has a simple enough function. When a paraplegic person straps themselves in, the machine does the job that their leg muscles no longer can.

The exoskeleton is the culmination of years of work by an international team of scientists and engineers on the Walk Again project. The robotics work was coordinated by Gordon Cheng at the Technical University in Munich, and French researchers built the exoskeleton. Nicolelis’s team focused on ways to read people’s brain waves, and use those signals to control robotic limbs.

To operate the exoskeleton, the person is helped into the suit and given a cap to wear that is fitted with electrodes to pick up their brain waves. These signals are passed to a computer worn in a backpack, where they are decoded and used to move hydraulic drivers on the suit.

The exoskeleton is powered by a battery – also carried in the backpack – that allows for two hours of continuous use.

“The movements are very smooth,” Nicolelis told the Guardian. “They are human movements, not robotic movements.”

Nicolelis says that in trials so far, his patients seem have taken to the exoskeleton. “This thing was made for me,” one patient told him after being strapped into the suit.

The operator’s feet rest on plates which have sensors to detect when contact is made with the ground. With each footfall, a signal shoots up to a vibrating device sewn into the forearm of the wearer’s shirt. The device seems to fool the brain into thinking that the sensation came from their foot. In virtual reality simulations, patients felt that their legs were moving and touching something.

Sample’s article includes a good schematic of the ‘suit’ which I have not been able to find elsewhere (meaning the Guardian likely has a copyright for the schematic and is why you won’t see it here) and speculation about robotics and prosthetics in the future.

Nicolelis and his team have a Facebook page for the Walk Again Project where you can get some of the latest information with both English and Portuguese language entries as they prepare for the June 12, 2014 kickoff.

One final thought, this kickoff project represents an unlikely confluence of events. After all, what are the odds

that a Brazil-born researcher (Nicolelis) would be working on a project to give paraplegics the ability to walk again? and

that Brazil would host the World Cup in 2014 (the first time since 1950)? and

that the timing would coincide so a public demonstration at one of the world’s largest athletic events (of a sport particularly loved in Brazil) could be planned?

It becomes even more extraordinary when one considers that Brazil had isolated itself somewhat in the 1980s with a policy of nationalism vis à vis the computer industry (from the Brazil Science and Technology webpage on the ITA website),

In the early 1980s, the policy of technological nationalism and self-sufficiency had narrowed to the computer sector, where protective legislation tried to shield the Brazilian mini- and microcomputer industries from foreign competition. Here again, the policy allowed for the growth of local industry and a few well-qualified firms, but the effect on the productive capabilities of the economy as a whole was negative; and the inability to follow the international market in price and quality forced the policy to be discontinued.

For those who may have forgotten, the growth of the computer industry (specifically personal computers) in the 1980s figured hugely in a country’s economic health and, in this case,with a big negative impact in Brazil.

Returning to 2014, the kickoff in Brazil (if successful) symbolizes more than an international athletic competition or a technical/medical achievement, this kick-off symbolizes a technological future for Brazil and its place on the world stage (despite the protests and social unrest) .

Links to other posts in the Brains, prostheses, nanotechnology, and human enhancement five-part series

ETA June 16, 2014: The kickoff seems to have been a disappointment (June 15, 2014 news item on phys.org) and for those who might be interested in some of the reasons for the World Cup unrest and protests in Brazil, John Oliver provides an excoriating overview of the organization which organizes the World Cup games while professing his great love of the games, http://www.youtube.com/watch?v=DlJEt2KU33I

The Brazil-Canada Chamber of Commerce (BCCC) is presenting, in partnership with Simon Fraser University’s (SFU) Beedie School of Business, an all-morning forum on June 17, 2013. From the SFU Vancouver Events: June 14 – 21, 2013 announcement (Note: Links have been removed),

Monday, June 17 [2013]

Brazil-Canada Business, Innovation, Science, and Technology Forum

Time: 8-11:30am

Place: Segal Graduate Business School, 500 Granville St.

Cost: $35-70, register online

Join us for a morning focused on Business Innovation and Science & Tecnology opportunities in the Brazilian economy. The opening speakers, Ambassador Sergio Florencio, Consul General and Dr. Jeremy Hall will provide an overview of the landscape in Brazil. The panel discussion includes industry leaders who have piloted extensive business in Brazil specifically in the agriculture, mining and infrastructure fields: Marcelo Sarkis, Heenan Blaikie; Ray Castelli, Weatherhaven and Rogerio Tippe, Javelin Partners. If you are interested in conducting business in Brazil and would like to understand more about the dynamics of the Brazilian economy and how businesses operate, please register now.

If the event is about business, innovation, science, and technology, it seems curious the only mentions of science and/or technology in the event description are confined to a few of the panelists’ interests in agriculture, mining, and whatever they mean by infrastructure.

Brazil is one of the BRICS (Brazil, Russia,India, China, and South Africa) countries and, from what I understand, this very loose coalition is eager to take a leadership position vis à vis science, technology, and innovation supplanting the dominance of the US, Japan, and the European Union.

In the early 1990s, I wrote a paper about science and technology transfer and noted that Brazil was entering a new period of development after years of the country’s science and technology efforts (scientists) being isolated from the rest of the world in a failed attempt to create a powerhouse international enterprise.

Some 20 years later, the decision to join the rest of the science and technology world seems to have been successful. Brazil is set to host the 2014 World Cup for soccer (or, as most of the world calls it, football) and the summer Olympics in 2016. (Sports are often correlated with science and technology advances.) I don’t believe any other country has ever attempted to host two such large international sports events within two years of each other. That’s a pretty confident attitude.

There are two areas of science and technology research in Brazil that are of particular interest to me, brain research and the work on cellulose nanocrystals (CNC), also known as, nanocrystalline cellulose (NCC).

While the focus was on Miguel Nicolelis and Duke University (US), the recent announcement of brain-to-brain communication via the Internet featured a research facility in Brazil (from my Mar. 4, 2013 posting),

Miguel Nicolelis, a professor at Duke University, has been making international headlines lately with two brain projects. The first one about implanting a brain chip that allows rats to perceive infrared light was mentioned in my Feb. 15, 2013 posting. The latest project is a brain-to-brain (rats) communication project as per a Feb. 28, 2013 news release on *EurekAlert,

Researchers have electronically linked the brains of pairs of rats for the first time, enabling them to communicate directly to solve simple behavioral puzzles. A further test of this work successfully linked the brains of two animals thousands of miles apart—one in Durham, N.C., and one in Natal, Brazil.

The results of these projects suggest the future potential for linking multiple brains to form what the research team is calling an “organic computer,” which could allow sharing of motor and sensory information among groups of animals. The study was published Feb. 28, 2013, in the journal Scientific Reports.

“Our previous studies with brain-machine interfaces had convinced us that the rat brain was much more plastic than we had previously thought,” said Miguel Nicolelis, M.D., PhD, lead author of the publication and professor of neurobiology at Duke University School of Medicine. “In those experiments, the rat brain was able to adapt easily to accept input from devices outside the body and even learn how to process invisible infrared light generated by an artificial sensor. So, the question we asked was, ‘if the brain could assimilate signals from artificial sensors, could it also assimilate information input from sensors from a different body?’”

It is the exoskeleton described on the Walk Again Project home page that Nicolelis is hoping will enable a young Brazilian quadriplegic to deliver the opening kick for the 2014 World Cup (soccer/football) in Brazil.

Moving on to the other area of interest, CNC research , which in Canada is discussed in terms of the forestry industry (I’ve blogged about this extensively, the search term NCC should fetch most if not all of my postings on the topic), is taking a different tack in Brazil where the focus is on pineapple and banana fibres. My Mar. 28, 20111 posting (Nanocellulose fibres, pineapples, bananas, and cars) focuses on cellulose and plastic,

Brazilian researchers are working on ways to use nanocellulose fibres from various plants to reinforce plastics in the automotive industry. From the March 28, 2011 news item on Nanowerk,

Study leader Alcides Leão, Ph.D., said the fibers used to reinforce the new plastics may come from delicate fruits like bananas and pineapples, but they are super strong. Some of these so-called nano-cellulose fibers are almost as stiff as Kevlar, the renowned super-strong material used in armor and bulletproof vests. Unlike Kevlar and other traditional plastics, which are made from petroleum or natural gas, nano-cellulose fibers are completely renewable.

My second and, to date, only other posting (June 16, 2011) about the work in Brazil features a transcript of an interview with CNC researcher, Alcides Leão.

Finally, I have a few factoids which I will tie together, loosely, and try to show how they relate to this forum. First, São Paulo, Brazil hosts the world’s second oldest and one of its most important biennial visual arts events. (BTW, the next one, Bienal de São Paulo, is in 2014.) Second, the recent Council of Canadian Academies assessment, State of Science and Technology in Canada, 2012, stated that Canada rates very highly in six areas, one of those areas being the Visual and Performing Arts. Admittedly Canada’s prominence in the visual and performing is fueled largely by efforts in Québec (as per the assessment), still, one would think there might be some value in trying to include that sector in this forum and encourage the local visual and performing arts technology industry to make connections with the Brazilian industry.

Finally for those of you who have persisted, here’s the link to buy tickets for the June 17, 2012 forum.